JP2013210499A5 - Image display apparatus and control method thereof - Google Patents

Description

The present invention relates to an image display device and a control method thereof.

First, the motion blur will be described with reference to FIG. FIG. 16 is a schematic diagram illustrating an example of disturbance (moving image blur) that occurs when an image of an object moving from left to right on the screen is displayed without performing a BL scan.
FIG. 16A shows input image signals (image signals input to the liquid crystal display device) of the liquid crystal lines A (matrix lines formed by a plurality of liquid crystal elements) of three frames in the periods t1, t2, and t3. It is a figure which shows an example. FIG. 16 (a) shows an example of an image signal on the dark background B bright object O is moved toward the right side from the left side of the screen.
FIG. 16B is a diagram illustrating an example of the transmittance of the liquid crystal element of the liquid crystal line A in the period t3. In FIG. 16B, the vertical axis represents the transmittance, and the horizontal axis represents the spatial position (the position in the horizontal direction (left-right direction) of the liquid crystal element). The transmittance corresponds to the brightness of the image.
FIG. 16C is a diagram illustrating an example of the vertical synchronization signal of the input image signal. Each of the periods t1, t2, and t3 is one frame period, and the vertical synchronization signal is input once every frame period.
FIG. 16D is a diagram illustrating an example of a lighting state of a backlight (a backlight corresponding to the liquid crystal line A). In FIG. 16D, the vertical axis represents time, and the horizontal axis represents backlight luminance (instantaneous value; instantaneous luminance) at each time. In the example of FIG. 16D, the instantaneous luminance of the backlight is always 1.
FIG. 16E is a diagram showing an example of a display image (image displayed on the screen) of the liquid crystal line A of the three frames in the above-described periods t1, t2, and t3. In FIG. 16 (e), the vertical axis represents time, and the horizontal axis represents the spatial position. In the example of FIG. 16E, since the backlight is always turned on (FIG. 16D), an image based on the input image signal is always displayed. In FIG. 16E, only the region of the object O is shown, and the region of the background B is omitted.
FIG. 16F shows an integral value of luminance input to the retina of the viewer's eye when the viewer (user) tracks the movement of the object O, that is, an image (liquid crystal line) perceived by the viewer. It is a figure which shows an example of the (image of A).
FIG. 16G is a diagram showing the distribution (luminance distribution) of the integral value of FIG. When comparing FIG. 16B and FIG. 16G, the luminance change of the edge of the object O is steep in FIG. 16B, whereas the luminance of the edge 1501 of the object O in FIG. Change is slow. This means that blurring (moving image blur) occurs at the edge of the object O.

An object of the present invention is to provide a technique capable of reducing flicker disturbance, motion blur, and multiple image blur.

The first image display device of the present invention is:
Light emitting means;
A display panel for displaying an image by transmitting light emitted from the light emitting means ;
For each frame, setting the plurality of different lighting period length, the light emitting means is turned to the lighting period, the period other than the lighting period so that the light emission means is turned off, the turning on and off of said light emitting means Control means for controlling;
Have
The control means sets three or more lighting periods in the frame so that the intervals of the lighting periods in the frame are different from each other .
The second image display device of the present invention is
Light emitting means;
A display panel for displaying an image by transmitting light emitted from the light emitting means;
A plurality of lighting periods having different lengths are set for each frame, and the light emitting means are turned on and off so that the light emitting means is turned on during the lighting period and the light emitting means is turned off during a period other than the lighting period. Control means for controlling;
Have
The control means includes
Control the number of lighting periods in the frame according to the brightness of the image displayed on the display panel,
When three or more lighting periods are set in a frame, the lighting periods are set so that the intervals of the lighting periods in the frame are different from each other.
It is characterized by that.

The control method of the first image display device of the present invention includes:
Light emitting means, by transmitting the light emitted from the light emitting means, a control method of an image display device including a display panel for displaying an image, a
Setting a plurality of lighting periods having different lengths for each frame;
Lighting period wherein the light emitting means is turned on, so that the light emitting means is turned off in a period other than the lighting period, and controlling the turning on and off of said light emitting means,
Have
In the step of setting the plurality of lighting periods , three or more lighting periods are set in the frame so that the intervals of the lighting periods in the frame are different from each other. To do.
The control method of the second image display device of the present invention includes:
A control method for an image display device, comprising: a light emitting unit; and a display panel that displays an image by transmitting light emitted from the light emitting unit.
Setting a plurality of lighting periods having different lengths for each frame;
Controlling lighting and extinguishing of the light emitting means so that the light emitting means is lit during a lighting period and the light emitting means is extinguished during a period other than the lighting period;
Have
In the step of setting the plurality of lighting periods,
Depending on the brightness of the image displayed on the display panel, the number of lighting periods in one frame is controlled,
When three or more lighting periods are set in a frame, the lighting periods are set so that the intervals of the lighting periods in the frame are different from each other.
It is characterized by that.

Next, the effect of the present embodiment will be described with reference to FIG.
FIG. 6 is a schematic diagram illustrating an example of an effect when the backlight is turned on with the BL drive current of FIG. 5 and an image of an object moving from left to right on the screen is displayed.
FIG. 6A is a diagram illustrating an example of an input image signal of liquid crystal lines A (matrix lines formed by a plurality of liquid crystal elements) of three frames in periods t1, t2, and t3. FIGS. 6 (a) shows an example of an image signal bright object O on the dark background B moves toward the right side from the left side of the screen.
FIG. 6B is a diagram illustrating an example of the transmittance of the liquid crystal element of the liquid crystal line A in the period t3. In FIG. 6B, the vertical axis represents the transmittance, and the horizontal axis represents the spatial position (the position of the liquid crystal element in the horizontal direction (left-right direction)). The transmittance corresponds to the brightness of the image.
FIG. 6C is a diagram illustrating an example of the vertical synchronization signal of the input image signal. Each of the periods t1, t2, and t3 is one frame period, and the vertical synchronization signal is input once every frame period.
FIG. 6D is a diagram illustrating an example of a lighting state of a backlight (a backlight corresponding to the liquid crystal line A). In FIG. 6D, the vertical axis represents time, and the horizontal axis represents the instantaneous luminance of the backlight at each time. In the example of FIG. 6D, two lighting periods are set as the lighting period of the backlight in one frame. The lengths of the two lighting periods are different from each other.
FIG. 6E is a diagram illustrating an example of a display image (image displayed on the screen) of the liquid crystal line A of the three frames in the above-described periods t1, t2, and t3. In FIG. 6E, the vertical axis represents time, and the horizontal axis represents the spatial position. In the example of FIG. 6E, an image based on the input image signal is displayed during the lighting period of the backlight (backlight corresponding to the liquid crystal line A), and a black image is displayed during the non-lighting period of the backlight (light-out period). Has been. That is, the image based on the input image signal and the black image are alternately displayed. Specifically, an image based on the input image signal is displayed twice, and each display time is different from each other. In FIG. 6E, only the region of the object O is shown, and the region of the background B is omitted.
FIG. 6F shows an integral value of luminance input to the retina of the viewer's eye when the viewer follows the movement of the object O, that is, an image perceived by the viewer (an image of the liquid crystal line A). It is a figure which shows an example.
FIG. 6G is a diagram showing an integrated value distribution (luminance distribution) of FIG.
6 (h) and 6 (i) are diagrams showing a conventional example of the luminance distribution. Specifically, FIG. 6H shows a luminance distribution (FIG. 16F) when the BL scan is not performed. FIG. 6I shows the luminance distribution (FIG. 17F) when the conventional BL scan is performed.

Step S210 3 of the following, the motion adaptive pulse modulator 202 includes an n-number of BLd (x) calculated in step S2102, of n calculated in step S2103 BLp and (x), the backlight control unit 102 Output (step S2104).

An example of the relationship between the input image signal, the liquid crystal panel drive frequency, the number of lightings n, Gt, and the flicker lower limit frequency is shown below.
Input image signal Drive frequency Number of lighting Gt Flicker lower limit frequency Image signal 1 48 Hz 4 4 150
Image signal 2 50Hz 4 4 180
Image signal 3 60Hz 3 4 180
As described above, when the drive frequency is 48 Hz or 50 Hz, it is determined that the drive frequency is low, and the number of times of lighting is increased, so that flicker interference can be accurately reduced. Further, when it is determined that the drive frequency is low, flicker interference can be reduced intensively by making the interval of the extinction period uniform.
Further, when the drive frequency is 60 Hz, it is determined that the drive frequency is high and Gt> n, so that moving image blur and multiple image blur can be reduced intensively as in the first embodiment.

Claims (18)

Light emitting means;
A display panel for displaying an image by transmitting light emitted from the light emitting means;
For each frame, setting the plurality of different lighting period length, the light emitting means is turned to the lighting period, the period other than the lighting period so that the light emission means is turned off, the turning on and off of said light emitting means Control means for controlling;
Have
The image display device characterized in that the control means sets three or more lighting periods in a frame so that the intervals of the lighting periods in the frame are different from each other .   The control means controls the number of lighting periods in the frame according to the brightness of the image displayed on the display panel.
The image display apparatus according to claim 1.   Light emitting means;
  A display panel for displaying an image by transmitting light emitted from the light emitting means;
  A plurality of lighting periods having different lengths are set for each frame, and the light emitting means are turned on and off so that the light emitting means is turned on during the lighting period and the light emitting means is turned off during a period other than the lighting period. Control means for controlling;
Have
  The control means includes
    Control the number of lighting periods in the frame according to the brightness of the image displayed on the display panel,
    When three or more lighting periods are set in a frame, the lighting periods are set so that the intervals of the lighting periods in the frame are different from each other.
An image display device characterized by that.   The control means increases the number of lighting periods in the frame when the brightness of the image displayed on the display panel is bright than when the image is dark.
The image display device according to claim 2, wherein the image display device is an image display device.   The brightness of the light emitting means can be changed,
  The control means sets the number of lighting periods in a frame using the brightness of the light emitting means as the brightness of an image displayed on the display panel.
The image display device according to claim 2, wherein the image display device is an image display device. It said control means, so that the length of a lighting period closer to the center time of the frame becomes longer, claim 1-5, characterized in that to set three or more lighting periods in the frame The image display device according to item 1 . Wherein, the interval of lighting periods within frame is the end time of the last lighting periods within the frame so as to be shorter than the time to the end time of the frame, to set the lighting period The image display device according to any one of claims 1 to 6, wherein the image display device is characterized in that: It said control means, so that the distance lighting periods within frame is gradually shortened, to any one of claims 1 to 7, characterized in that to set three or more lighting periods in the frame The image display device described. It said control means, so that the distance lighting periods within frame is gradually increased, to any one of claims 1 to 7, characterized in that to set three or more lighting periods in the frame The image display device described. The control means includes
When the motion amount of the image between the frames is greater than when smaller, the interval of lighting periods within frame is shortened,
When the amount of motion of the image between frames is small, the length of the extinguishing period, which is the period during which the light emitting means is extinguished, is more uniform than when it is large
The image display apparatus according to any one of claims 1 to 9, characterized in that setting the lighting period. Wherein, when the motion amount of the image between the frames is greater than when smaller, the difference in length of the lighting period in the frame so that larger, and sets the lighting period the image display apparatus according to any one of claims 1-10. The light emitting means has a configuration capable of individually controlling lighting and extinction for each of a plurality of divided areas constituting a screen area,
It said control means, the image display apparatus according to any one of claims 1 to 11, characterized in that setting the lighting period for each of the divided areas. Wherein, the input image data when the frame rate is low, according to any one of claims 1 to 12, characterized in that increasing the number of lighting periods within the frame than when higher Image display device. Wherein, when the low drive frequency of the display panel, according to any one of claims 1 to 13, wherein increasing the number of lighting periods within the frame than when high image Display device.   The control means sets a plurality of extinguishing periods, which are periods during which the light emitting means are extinguished, in the frame, and other extinguishing periods in the frame as the last extinguishing period
Set the lighting period so that a period longer than the period is set
The image display device according to claim 1, wherein:   The display panel is a liquid crystal panel,
  The light emitting means is a backlight.
The image display device according to claim 1, wherein the image display device is an image display device. Light emitting means, by transmitting the light emitted from the light emitting means, a control method of an image display device including a display panel for displaying an image, a
Setting a plurality of lighting periods having different lengths for each frame;
Lighting period wherein the light emitting means is turned on, so that the light emitting means is turned off in a period other than the lighting period, and controlling the turning on and off of said light emitting means,
Have
In the step of setting the plurality of lighting periods , three or more lighting periods are set in the frame so that the intervals of the lighting periods in the frame are different from each other. For controlling an image display apparatus.   A control method for an image display device, comprising: a light emitting unit; and a display panel that displays an image by transmitting light emitted from the light emitting unit.
  Setting a plurality of lighting periods having different lengths for each frame;
  Controlling lighting and extinguishing of the light emitting means so that the light emitting means is lit during a lighting period and the light emitting means is extinguished during a period other than the lighting period;
Have
  In the step of setting the plurality of lighting periods,
    Depending on the brightness of the image displayed on the display panel, the number of lighting periods in one frame is controlled,
    When three or more lighting periods are set in a frame, the lighting periods are set so that the intervals of the lighting periods in the frame are different from each other.
And a control method for the image display device.